* Lung infections and respiratory failure
* Blockage of pancreatic enzymes that lead to malnutrition
* Infertility in affected males

The most common mutation causing CF is a three-base pair deletion in the position of delta F508, but there are now over 1800 mutations identified in the CFTR gene.

The identification of increased immunoreactive trypsinogen (IRT) levels in the blood of infants with CF has made neonatal screening for CF possible. Trypsinogen is one of the secretory products of the pancreas making its level in the blood a specific marker of pancreatic function. Detection of high levels of IRT in the newborn period place the infant at risk for CF. Although there is no cure, newborns screened for cystic fibrosis can benefit from early diagnosis and treatment, which can:

While newborn screening is not a definitive diagnostic test for cystic fibrosis, it can lead to confirmatory sweat testing that can rule out or confirm a CF diagnosis. The Cystic Fibrosis Foundation and the Centers for Disease Control and Prevention recommend cystic fibrosis screening for all newborns.

Laboratory Unit

Methodology

NBS (Newborn Screening) for cystic fibrosis is done in a two-step process. First, the newborn will have an IRT assay performed. If the IRT level is elevated, then the newborn will have a second assay performed on the same dried blood spot sample to detect if any CF mutations are present. This two step screen provides earlier detection of newborns with cystic fibrosis, therefore allowing for quicker diagnosis.

Specimen Collection

Missouri newborn screening samples must only be collected on the FDA approved blood collection forms that are provided by the MSPHL and must be pre-purchased at a cost of $65 per collection form. The optimum collection time is between 24 and 48 hours-of-age. The instructions for collecting the samples are listed on the back of the collection form. All 5 circles on the filter paper need to be filled with blood from one side and then air dried for at least 3 hours in a horizontal position without allowing the blood to touch any surface during drying, including other parts of the card (see image).
See "Rules for Collection".

Storage/Transport

Store the dried blood samples at room temperature in the envelopes provided by the MSPHL and transport within 24 hours of collection.

Acceptable Specimen
Type(s)

Initial Screen (the red form) or Repeat Screen (the green form)

Test Request Form(s)

Included in kit

Possible Results

Abnormal, No CF mutations were detected - The Immunoreactive Trypsinogen (IRT) is elevated. No mutations detected using the current screening panel. Cystic Fibrosis is not likely. No further evaluation necessary unless clinically indicated.

Abnormal, One CF mutation was detected - Referral to an accredited CF Center for consultation and sweat testing is necessary. The Immunoreactive Trypsinogen (IRT) is elevated. One mutation in the screening panel was identified. Cystic Fibrosis cannot be ruled out due to the possibility of a second mutation which is not included in the screening panel. The final newborn screening report will be phoned and faxed to the physician/health care provider and appropriate CF center.

Abnormal, Two CF mutations were detected - Immediate referral to an accredited CF Center for consultation and sweat testing is necessary. The Immunoreactive Trypsinogen (IRT) is elevated. Two mutations in the screening panel were identified. The final newborn screening report will be phoned and faxed to the physician/health care provider and appropriate follow up center.

Abnormal, No mutations were found, but IRT highly elevated (= 160 ng/mL) - Referral to an accredited CF Center for consultation and sweat testing is necessary. Although there is a minimal risk for Cystic Fibrosis (CF) in the absence of detected mutations, a highly elevated Immunoreactive Trypsinogen (IRT) result may be indicative of CF due to mutations not included in the screening panel. The final newborn screening report will be phoned and faxed to the physician/health care provider and appropriate follow up center.

No Result - All specimens collected before 24 hours of age are invalid and are given a "No Result". A repeat newborn screen is requested.

All final newborn screening reports are mailed to the submitter and physician of record.

Reference Range

Unacceptable Conditions

Interfering Substances

IRT concentration is frequently high immediately after birth, therefore specificity is improved if the test is performed after the first day of age. A specimen collected between 24 and 48 hours of age is optimal. There is also an age-related decline in IRT levels in children with CF. IRT levels within the normal range will be considered non-interpretable after 3 months of age and will not be reported on the newborn screen. IRT concentration is high in the blood of infants with CF, presumably from leakage of the protein into the circulation after exocrine pancreatic injury. Some infants that do not have CF may also have elevated levels of IRT in the newborn period, but these levels decrease to normal in the first weeks of life

* Premature or sick infants may have a false-positive screen due to increased stress on the body.
* Blood collection with EDTA can result in inaccurate screening results.
* Babies with meconium ileus have an increased likelihood of having CF, but may not have elevated IRT levels in the newborn period.
* Specimens collected prior to 24 hours of age may exhibit a false positive or false negative result. It is extremely important to perform a second screening on these infants as soon as possible to ensure that the infant whose IRT level has not stabilized, and is continuing to rise, is not missed. A small percent of infants will be detected only on a second screen.
*
Mild or atypical forms of CF may not demonstrate elevated IRT levels in the newborn period.

Result Reported

1 to 5 working days.

Fees

CPT Codes

83516

LOINC/SNOMED Codes

N/A

Additional Information

Prevalence of Disorder: 1:3,200 in Missouri

The newborn screening test for CF is meant to identify infants at risk for CF and in need of diagnostic sweat testing. A “normal” screen does not rule out the possibility of the disease. The health care provider should remain vigilant to detect CF among children with clinical symptoms.

Follow Up Testing and Treatment: If 1 or 2 CFTR mutations are detected or if an infant has no CF mutations detected and has an IRT greater than or equal to 160 ng/mL, the baby's primary care physician will be contacted immediately with recommendations for immediate referral to an accredited CF Center for diagnostic sweat testing (pilocarpine iontophoresis). The Missouri Department of Health and Senior Services have contracted four accredited CF Centers for follow-up sweat testing, counseling and consultation (see below, "Missouri Certified CF Centers"). The final newborn screening report will be phoned and faxed to the physician/health care provider and appropriate CF center.

To receive optimal treatment, children with CF should be examined by Cystic Fibrosis Foundation certified CF centers that offer a comprehensive approach to CF care and that can closely monitor the development of respiratory infections and provide nutritional and psychosocial support. CF patients follow a strict regimen to treat the disease as well as care to reduce contracting outside infections. CF is inherited as an autosomal recessive disease, which means both parents are carriers of a mutation for the gene. Carrier testing for at-risk family members is available.

The treatment regimen can include:
* Oral and or IV Antibiotics to fight infections
* Vitamins to improve general health
* Respiratory therapy such as bronchodilators and other treatments to clean airways and dislodge mucus from the lungs
* Steroids to reduce inflammation
* Supplemental oxygen therapy
* Enzymes to aid in digestion
* Liquid nutrition or healthy high calorie diets for weight gain
* Counseling and support

Types Detected:
CF is caused by a mutation in a gene called the cystic fibrosis transmembrane conductance regulator (CFTR). This gene helps create sweat, digestive juices, and mucus. Since the identification of the gene and the major mutation responsible for CF, more than 1800 mutations and DNA sequence variations have been identified in the CFTR gene. The Delta F508 mutation is represented in almost all populations, although its relative frequency varies among different geographic locations. The highest frequency is observed in Caucasian populations, where it accounts for approximately 70 percent of the CF alleles.

Because CF is an autosomal recessive genetic disorder, an individual must have two mutated CFTR genes to express the disease phenotype (one abnormal gene inherited from each parent). An individual with one normal gene and one abnormal gene is a CF carrier. Carriers do not have symptoms and are not ill. Different CFTR mutations result in different disease phenotypes. Some may have little or no effect on CFTR function, and some may result in milder forms of disease. Even siblings with identical CF mutations may have dramatically different clinical courses. CF may affect the lung and upper respiratory tract, GI tract, pancreas, liver, sweat glands, and genitourinary tract. Nutritional abnormalities secondary to pancreatic insufficiency also have predictable consequence for growth and development.

Signs and Symptoms Associated with CF Include:Because there are more than 1800 mutations of the CF gene, symptoms differ from person to person.

Symptoms in newborns may include:
Delayed growth
Failure to thrive - large appetite but failure to gain weight or grow at a normal rate
No bowel movements in first 24 to 48 hours of life
Salty-tasting skin

Symptoms related to bowel function may include:
Belly pain from severe constipation
Increased gas, bloating, or a belly that appears swollen (distended)
Nausea and loss of appetite
Stools that are pale or clay colored, foul smelling, have mucus, or that float
Weight loss or malnutrition

Symptoms related to the lungs and sinuses may include:
Increased coughing or increased mucus in the sinuses or lungs
Fatigue
Nasal congestion caused by nasal polyps or infection
Recurrent episodes of pneumonia
Increased shortness of breath